KR100837937B1 - Continuously variable transmission for vehicle - Google Patents

Abstract

The present invention relates to a continuously variable transmission for a vehicle, and in particular, a primary pulley mounted on an input shaft of a continuously variable transmission and a secondary pulley mounted on an output shaft, respectively, and a variable side pulley mounted on the input shaft and the output shaft, respectively. And a piston installed on the outer side of the variable side pulley, a hydraulic chamber configured to receive pressure fluid between one side of the piston and the variable side pulley, and the other side of the piston to support the piston, And a flow path formed in the bearing member and the piston to supply the pressure fluid generated by the driving force of the engine to the hydraulic chamber, the bearing member press-fitted to the rear cover to rotate, and thus the initial starting response of the vehicle Solve the problem of excess oil leakage in the continuously variable transmission It has the advantage of improving the durability of the pulley and the secondary pulley.

Variable pulley, piston, bearing member, flow path

Description

Continuously variable transmission for vehicles {CONTINUOUSLY VARIABLE TRANSMISSION FOR VEHICLE}

1 is a view schematically showing a primary pulley side of a continuously variable transmission for a vehicle according to the prior art;

2 is a view schematically showing a primary pulley side of a continuously variable transmission for a vehicle according to an embodiment of the present invention.

<Explanation of symbols on main parts of the drawings>

10: primary pulley 20: fixed shaft pulley

30: variable shaft pulley 40: piston

50: hydraulic chamber 60: rear cover

70: bearing member 80,85: flow path

The present invention relates to a continuously variable transmission for a vehicle, and more particularly, in order to solve the problem of initial oscillation responsiveness of the vehicle and an excessive amount of oil leakage in the continuously variable transmission and to maintain durability of the primary pulley and the secondary pulley. It relates to a continuously variable transmission for a vehicle installed.

In general, the transmission of the vehicle has a function of transmitting the driving force of the engine to the drive wheels. Such a transmission includes a manual transmission in which the driver directly selects a shift stage at the driver's will, and the shift is automatically performed according to the driving conditions of the vehicle. It is divided into the automatic transmission which is made, and the continuously variable transmission in which continuous transmission is continuously performed without a specific speed change area between each transmission stage. Such continuously variable transmissions are mainly used by using the diameter displacement of the pulley mounted on the input shaft and the output shaft.

1 is a view schematically showing a primary pulley side of a continuously variable transmission for a vehicle according to the prior art.

As shown in Figure 1, the primary pulley (1) mounted on the input shaft of the continuously variable transmission for a vehicle according to the prior art consists of a fixed side pulley (2) and a variable side pulley (3), the fixed side pulley (2) ) Is integrally formed on the input shaft, and the variable pulley 3 is coupled to the input shaft so as to be moved left / right.

A piston 4 is installed outside the variable side pulley 3, and a hydraulic chamber 5 is formed between one side of the piston 4 and the variable side pulley 3 to receive a pressure fluid.

In addition, a bearing 7 is press-fitted to the rear cover 6 of the continuously variable transmission to support the piston 4 on the other side of the piston 4.

The hydraulic chamber 5 is supplied with a pressure fluid through a flow path 8a formed in the variable side pulley 3.

At this time, the pressure fluid supplied to the hydraulic chamber 5 includes a flow path 8b formed on the rear cover 6 side, a flow path 8a formed inside the variable shaft pulley 3 and the variable side pulley 3. It is transmitted to the hydraulic chamber 5 through the oil port (8c) formed on one side of.

Accordingly, the pressure generated in the hydraulic chamber 5 is transmitted to the variable side pulley 3 to operate the variable side pulley 3.

In addition, the flow path 8b formed on the rear cover 6 side and the flow path 8a formed inside the variable side pulley 3 are press-fitted to the rear cover 6 side flow path 8b to be installed. It is communicated by the flow path tube 8d by which the sealing 9 was fastened to the site | part fitted in the side pulley 3 side flow path 8a.

However, the continuously variable transmission for a vehicle according to the prior art as described above is modified according to the specifications of the seal 9 fastened to the flow path tube 8d fitted to the variable side pulley 3 and the temperature of the seal 9. There is a problem that the oil leakage amount is increased to reduce the oscillation response of the vehicle.

The present invention has been made to solve the above-mentioned problems of the prior art, by supplying a pressure fluid generated by the driving force of the engine to the hydraulic chamber through the flow path formed in the bearing member and the piston, the initial starting response of the vehicle and the continuously variable transmission An object of the present invention is to provide a continuously variable transmission for a vehicle that solves an excessive problem of oil leakage and improves durability of a primary pulley and a secondary pulley.

The present invention is a variable pulley mounted to the primary pulley mounted to the input shaft of the continuously variable transmission and the secondary pulley mounted to the output shaft so as to be movable left and right, respectively mounted to the input shaft and the output shaft, respectively on the outside of the variable side pulley A piston installed, a hydraulic chamber configured to receive a pressure fluid between one side of the piston and the variable side pulley, and the other side of the piston to support the piston and to be pressed into a rear cover to rotate the variable side pulley. Provided is a continuously variable transmission for a vehicle including an installed bearing member and a flow path formed in the bearing member and the piston to supply pressure fluid generated by a driving force of an engine to the hydraulic chamber.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In addition, the present embodiment is not intended to limit the scope of the present invention, but is presented by way of example only, and various modifications may be made without departing from the technical gist of the present invention.

2 is a view schematically showing a primary pulley side of a continuously variable transmission for a vehicle according to an embodiment of the present invention.

As shown in FIG. 2, the continuously variable transmission for a vehicle according to the present invention is variably shifted left and right to a primary pulley 10 mounted on an input shaft of a continuously variable transmission and a secondary pulley (not shown) mounted on an output shaft. The pulley 30 is installed.

The piston 40 is mounted on the input shaft and the output shaft, respectively, and is installed outside the variable side pulley 30.

A hydraulic chamber 50 is formed between one side of the piston 40 and the variable side pulley 30 to receive a pressure fluid.

The other side of the piston 40 is pressed into the rear cover 60 to support the piston 40 and to rotate the variable side pulley 30 is provided with a bearing member 70.

In addition, a flow path 80 is formed in the bearing member 70 and the piston 70 to supply a pressure fluid generated by a driving force of an engine (not shown) to the hydraulic chamber 50.

The pressure fluid is supplied to the hydraulic chamber 50 through a flow path 85 formed on the rear cover 60 and a flow path 80 formed on the bearing member 70 and the piston 40.

The flow paths 80 and 85 formed as described above can solve the problem of the initial oscillation response of the vehicle due to the excessive amount of oil leakage in the continuously variable transmission and can omit the processing of the flow path formed inside the conventional variable side pulley 30. There is an effect of improving the durability of the variable side pulley 30.

The flow path 80 formed in the bearing member 70 and the piston 40 may be formed of a plurality of through holes 80.

In addition, a flow path tube (not shown) may be press-fitted in the flow path 80 such that the bearing member 70 and the flow path 80 formed in the piston 40 communicate with each other.

In particular, the flow path 80 may be formed in an inner race of the bearing member 70.

Referring to the operation of the continuously variable transmission for a vehicle according to the present invention configured as described above are as follows.

The pressure fluid generated by the driving force of the engine is supplied to the flow path 80 formed in the bearing member 70 and the piston 40 via the flow path 85 formed in the rear cover 60.

In addition, the pressure fluid is supplied to the hydraulic chamber 50 through the flow path 80 formed in the bearing member 70 and the piston 40 to operate the variable side pulley 30.

The continuously variable transmission for a vehicle according to the present invention supplies the pressure fluid generated by the driving force of the engine to the hydraulic chamber through a flow path formed in the bearing member and the piston, thereby solving the problem of the initial starting responsiveness of the vehicle and the excessive amount of oil leakage in the continuously variable transmission. It has the effect of improving the durability of the primary pulley and the secondary pulley.

Claims (4)

A variable side pulley installed on the primary pulley mounted on the input shaft of the continuously variable transmission and the second pulley mounted on the output shaft so as to be movable left and right; Pistons mounted to the input shaft and the output shaft, respectively, and disposed outside the variable side pulley; A hydraulic chamber configured to receive a pressure fluid between one side of the piston and the variable side pulley; A bearing member installed on the other side of the piston to support the piston and to be press-fitted to a rear cover to rotate the variable side pulley; And a flow path formed in the bearing member and the piston to supply the pressure fluid generated by the driving force of the engine to the hydraulic chamber. The method according to claim 1, The flow path is a continuously variable transmission for a vehicle, characterized in that composed of a plurality of through holes formed in the bearing member and the piston. The method according to claim 1, And a flow path tube is press-fitted to the flow path such that the bearing member and the flow path formed in the piston communicate with each other. The method according to any one of claims 1 to 3, And the flow passage is formed in the inner race of the bearing member.

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